Numerical Simulation and Sensitivity Analysis of Gas-Oil Gravity Drainage Process of Enhanced Oil Recovery

P.S.Jadhawar; H.K.Sarma

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Numerical Simulation and Sensitivity Analysis of Gas-Oil Gravity Drainage Process of Enhanced Oil Recovery

机译：强化采油的瓦斯重力引流过程的数值模拟与敏感性分析

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The oil recovery process is controlled by the rates of gas injection and oil production, relative permeabilities, reservoir heterogeneities and the balance among viscous, capillary and gravity forces. Crestal gas injection in horizontal, vertical or reef type oil reservoirs recovers significant volumes of the residual oil due to the gas-oil gravity drainage mechanism, indicating the significance of gravity forces. This study investigates the effects of the parameters that control the process (e.g., rate of the gas injection and oil production) and reservoir heterogeneities on the overall performance of immiscible gravity drainage enhanced oil recovery (EOR). Reservoir simulation studies are conducted to map effective combinations of these parameters with respect to the oil recovery performance.

机译：采油过程受注气和采油速率，相对渗透率，储层非均质性以及粘性，毛细作用和重力之间的平衡控制。在水平，垂直或礁石型油藏中注入地壳气体可通过瓦斯油重力排放机制回收大量的剩余油，这说明了重力的重要性。这项研究调查了控制过程的参数（例如，注气速率和产油量）和储层非均质性对不混溶重力排水提高采油率（EOR）总体性能的影响。进行油藏模拟研究以针对油采收率绘制这些参数的有效组合。

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来源
《The Journal of Canadian Petroleum Technology》 |2010年第2期|64-70|共7页
作者
P.S.Jadhawar; H.K.Sarma;
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作者单位

Petroleum Engineering at the Australian School of Petroleum (ASP), University of Adelaide, Australia;

Petroleum Institute, Abu Dhabi, UAE;

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正文语种 eng
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φ: porosity, fraction; i_g: the rate of gas injection, MMSCFD; k: permeability, mD; N_p: cumulative oil production, bbl; q_o: the rate of the oil production, BPD; S_o: oil saturation; S_(wc): connate water saturation, fraction;

机译：φ：孔隙率;分数;i_g：注气速率;MMSCFD;k：磁导率;mD;N_p：累计石油产量;bbl;q_o：石油生产率;BPD;S_o：油饱和度;S_（wc）：原生水饱和度;分数;

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Numerical Simulation and Sensitivity Analysis of Gas-Oil Gravity Drainage Process of Enhanced Oil Recovery

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